Distribution of virulence factors in ESBL-producing Escherichia coli isolated from the environment, livestock, food and humans

In this study, extended-spectrum R-lactamase (ESBL)-producing Escherichia colt isolates recovered from the following sources were characterized with regard to the occurrence and distribution of uropathogenic and enteric pathogenic virulence factors: surface waters (rivers and lakes, n = 60), the intestines of freshwater fish (n 33), fresh vegetables (n 26), retail poultry meat (n 13) and the fecal samples of livestock (n 28), healthy humans (n 34) and primary care patients (n 13). Among the 207 isolates, 82% tested positive by PCR for one or more of the virulence factors (VI) that predict uropathogenicity, TraT, fyuA, chuA, PAL yfcv or vat. Uropathogenic E. coli (UPEC) were detected in each of the analyzed sources. Regarding virulence factors for intestinal pathogenic E colt, these were found more rarely and predominantly associated with the aquatic environment, with aagR (EAEC) found in isolates from surface waters and STp (porcine heat stable enterotoxin) and LT (heat-labile enterotoxin) associated with isolates from fish. Aggregate VF scores (the number of unique virulence factors detected for each isolate) were lowest among isolates belonging to phylogenetic group B1 and highest among group B2. Clustering of the isolates by phylogenetic group, multilocus sequence type (MLST) and ESBL-types revealed clonal overlaps of A:ST10(CTX-M-1) and D:ST350(CTX-M-1) between the sources of livestock, poultry meat and healthy humans, suggesting livestock, in particular poultry, represents a potential reservoir for these particular UPEC clones. The clones A:ST10(CTX-M-55) and B2:ST131(CTX-M-27), harboring uropathogenic virulence factors were significantly associated with fresh vegetables and with fish, respectively. Further clonal complexes with source overlaps included D:ST38(CTX-M-14), D:ST69(CTX-M-15), D:ST405(CTX-M-15) and D:ST648(CTX-M-15), which were found in surface water and healthy humans. Identifying potential reservoirs of OPEC in the environment, animals, food and humans is important in order to assess routes of transmission and risk factors for acquiring OPEC. (C) 2015 Elsevier B.V. All rights reserved,